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ANSYS 15 STRUCTURAL ANALYSIS GUIDE LICENSE

ANSYS 15 STRUCTURAL ANALYSIS GUIDE LICENSE

The 3D eddy current solver computes steady-state, time-varying (AC) magnetic fields at a given frequency.Īnsys Base license products (Mechanical and CFD) and HPC license products (HPC, HPC Packs, and HPC Workgroups) enable GPUs. Maxwell3D QS and Maxwell3D includes GPU-accelerated eddy current solver. These include motors, actuators, transformers, sensors and coils.

ANSYS Maxwell for designing and analyzing 2-D and 3-D low-frequency electromagnetic and electromechanical devices.

ANSYS DesignerSI for signal-integrity, power-integrity and EMI analysis.

ANSYS EMIT for radio frequency interference (RFI) in complex environments.

ANSYS HFSS SBR+ solvers for installed antenna performance simulations.

ANSYS HFSS for both frequency and time-domain electromagnetic analysis.

Other pressure-coupled solver-based fluid solutions where GPU acceleration is supported include ANSYS Polyflow for polymer and glass processing with as many as 10 million elements and ANSYS Icepak for electronics cooling simulation.

ANSYS® Fluent® offers GPU support for pressure-based coupled solver and radiation heat transfer models that include viewfactor computations using the NVIDIA OptiX ray-tracing method and the Discrete Ordinates model.

GPU support is available for the various solvers.

ANSYS® Mechanical® is a finite element analysis tool for structural analysis, including linear, nonlinear and dynamic studies.

NVIDIA Quadro enables ANSYS Discovery Live to bring real-time simulation to your design workflow.

ANSYS® Discovery Live is an interactive, CAD-agnostic Windows-based app that gives engineers instantaneous simulation results to help them explore and refine product designs.

Available since ANSYS 15.0 release, NVIDIA GPU acceleration enables faster results for more efficient computation and job turnaround times, delivering more license utilization for the same investment.ĪNSYS solutions that support GPU accelerators for faster computational performance include:

However, it could be inferred from the experimental results that passive and active vibration control systems were effective for thin-walled composite beam vibration amplitude control.ANSYS ANSYS® and NVIDIA® work collaboratively to ensure the fastest performance for simulations running on ANSYS parallel software. After the experiments with active vibration control, it was noticed that the vibration damping of the analyzed system was far higher at its resonant frequency in all cases.

developed and experimentally analyzed the passive and active vibration control techniques for a thin-walled composite beam. In this paper, piezoelectric ( d 33 M F C algorithm in fractional order. Piezoelectric Macro-Fiber Composite (MFC) utilization is increasing in engineering fields due to its strong actuation forces and high flexibility. The findings of this study indicate that the composite beams composed from (0/90) stacking sequence sets had reached stability state faster than the composite beams composed from (0/45) stacking sequence sets. When the control signal applied with the gain (kp) to a system increases, the rise time generally decreases, the actuator voltages for different control gain for all cases are observed with the increase in the proportional constant. The first set their laminates to have an orientation (0 with 90), and others have an orientation (0 with 45). In this, the proportional type (kp) of control algorithms is utilized, and in the summary of work refined two sets of finite element models. Active vibration control response of laminated composite beams with various stacking sequence configurations was examined, and the results were compared.

A linear coupled ﬁnite element model for piezoelectric MFC actuation of the composite beam was developed based on the APDL-ANSYS codes by using linear piezoelectric constitutive equations to study smart composite beam behavior in open and closed-loop cases. In this paper, piezoelectric ( ) type (M8528-P1) patches are applied for active control of a cantilever composite beam. Active vibration control analysis in smart composite structures using ANSYS